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Physical geographyrichmondelt.com/su_2018/sec/geography-and-history_su3.pdf350 porters Each man...
Transcript of Physical geographyrichmondelt.com/su_2018/sec/geography-and-history_su3.pdf350 porters Each man...
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FIND OUT ABOUT:
• How relief is formed
• Types of relief
• The relief and water of the continents
• The Earth’s climates and landscapes
• The physical relief of Spain
KNOW HOW TO:
• Use maps to link geographical features to each other
• Analyse the effects of cyclones
Physical geography 1The highest peak in the world
Everest, at 8,850 metres, is the highest mountain in the world. On 29th May 1953, the New Zealander Edmund Hillary and the sherpa Tenzing Norgay, both members of a British expedition, reached the top for the first time. Other climbers had tried to do the same unsuccessfully since the first expedition to Everest in 1920.
Base camp
Tenzing Norgay
Edmund Hillary
The 1953 Everest expedition
The 14 mountains over 8,000 metres high
Total members: 406
13 climbers
43 sherpas
Everest 8,850 m
Lhotse 8,516 m
Makalu 8,481 m
Cho Oyu 8,201 m
Kangchenjunga 8,598 m
Dhaulagiri 8,172 m
K2 8,611 m
350 porters
Each man carried a rucksack weighing 27 kilos.
They carried oxygen to help them breathe at high altitude. At times, the oxygen froze.
Each climbing suit, made of cotton and nylon, weighed 8 kg. They had to
put up with winds of 160 km/h and temperatures of -27 ºC.
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• How do you imagine the view from the top of Everest?
• Who first climbed Everest? Look for information about other climbers who have done it.
• Find out about Reinhold Messner. What did he achieve on Everest?
• What is a sherpa? What is a porter?
WORK WITH THE IMAGE
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Theodolite: the instrument
that was first used to
calculate the height of
Everest.
Edmund Hillary Tenzing Norgay
Khumbu glacier
NEPAL
CHINA
NEPAL
INDIA
Kathmandu
Everest
CHINA
Valley of Silence
NORTH FACE
SOUTH-EAST FACE
The South Col route
Manaslu 8,158 m
Gasherbrum I 8,068 m
Gasherbrum II 8,035 m
Shisha Pangma 8,046 m
Nanga Parbat 8,125 m
Broad Peak 8,047 m
Annapurna 8,078 m
base camp (5,364 m)
Lhotse(8,516 m)
Everest(8,850 m)
Route
Camps
Frontier
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Mount Everest owes its name to the topographer Sir George Everest (1790–1866). He calculated the height of the mountain – but he never climbed to the top.
DID YOU KNOW?
Geodesy is the scientific study of the shape and dimensions of the Earth, and its orientation in space. It gives us the geographic coordinates of a place. This enables other fields like topography and cartography to make maps and plans.
• What are topography and cartography?
• Which mountains on Earth are higher than 8,000 metres? In which mountain ranges are they situated? Investigate.
HOW DO WE KNOW?
What is relief?
The variations in elevation of the Earth’s surface are called relief. These variations are found on the surface of our continents and on the ocean bed.
Many changes in relief take place over an extremely long period of time.
How is relief formed?
The theory of plate tectonics explains relief formation. According to this theory, the Earth’s crust is made up of plates which float on the top layer of the mantle. They separate, slide against each other or collide. New types of relief are then formed.
• When the plates separate, rifts (cracks) are formed in the ocean’s crust. The magma inside the earth pushes up through the cracks. When it cools, it forms a new crust. This separation also takes place on the continents.
The Great Rift Valley is a huge fracture crossing a large area of eastern Africa.
• A plate on the ocean’s crust sometimes collides with the edge of a continental plate, and is pushed down into the Earth’s interior. High temperatures melt the crust, and turn it into magma. The area where the crust is destroyed is called a subduction zone.
• Magma pushes up through the continental crust, creating volcanoes on the Earth’s surface. This was the origin of the Andes mountain chain.
• Two continental plates sometimes collide, and the pressure forms folds (undulations) in the Earth’s surface. Faults occur when the crust is rigid and fractures. In this case, some blocks sink while others rise and form mountains.
The biggest changes in the Earth’s crust take place at the boundaries between plates. They are areas of intense seismic and volcanic activity.
THE MOVEMENT OF TECTONIC PLATES
DO
RS
AL
PA
CÍ
FI
CA
DO
RS
AL
A
TL
ÁN
TI C
A
DO
RS
AL
Í
ND
I CA
DE L O E S T
E
DO
RS
A
L Í N D I C A D E L E S
TE
North American
plate
South American
plate
Caribbean plate
Cocos plate
Nazca plate
Antarctic plate
African
plate
Eurasian plate
Iranian plate
Arabian plate
Pacific
plate
Indo-Australian plate
Philippines plate
Pacific
plate
HIMALAYAS
MO
UN
TAIN
S
AN
DES
ATLAS
ALPS
ROCK
Y
RIFT
VA
LLEY
MOUNTAINS
THE MOVEMENT OF TECTONIC PLATES
0 2,000
kilometres
Scale
509798_01_p14_a_placas_mundi_GEODOS
1Relief formation
Mountain ranges
Areas of earthquakes
PlatesFaultsVolcanoes
509798_01_p14_leyenda_placas_mundi_GEODOS8
Subduction. The formation of faults (A) and folds (B).
Oceanic plate
Continental plate
Exogenous processes
In addition to forces beneath the Earth’s surface, relief is also formed by exogenous (or external) processes:
• Erosion of rocks, which are worn away, fragmented or dissolved.
• Transport of the eroded materials.
• Sedimentation, or the deposition of materials in another place.
The erosion of rocks is caused by the interaction of external agents over an extended period of time. These forces are mainly water, wind and temperature:
• Rivers carve out deep valleys and gorges. Glaciers, or large masses of ice, also cause erosion when they move.
• The force of the sea erodes cliffs, changing the coastline. Sea water transports the material from the cliffs and deposits it in other areas, forming new beaches.
• Sharp changes in temperature can break up rocks. Water sometimes filters down through the cracks in hard rocks. If the water freezes, it then exerts pressure on the rocks and may break them into pieces. The scree on mountains are accumulations of rock fragments which originated in this way.
• Limestone and gypsum do not fragment. The action of water dissolves them and they form karstic relief. The karst rock formations in caves and subterranean galleries were formed in this way.
The Grand Canyon was formed by the Colorado River in Arizona (USA).
The rocks of Ciudad Encantada (Cuenca) are karst formations, which have been eroded by water.
A B
➡
➡
➡ ➡
WORK WITH THE PHOTOS
1 What processes do the photos show? How do they create, destroy or modify relief?
Think about your area. Are there any interesting rock formations? Which external agents (like water and wind) have shaped its relief? And have people also modified its natural relief? In what ways?
• Share your ideas with the rest of the class.
THINK ABOUT IT
9
Physical geography 1
Oceanic relief
Relief on the ocean floor is as varied as continental relief:
• A continental shelf is a large plateau that surrounds a continent, reaching a depth of 200 m. A continental slope leads down from the continental shelf into the deeper part of the ocean.
• Abyssal plains are vast plateaus at a depth of 3,000-7,000 m. Mid-ocean ridges are long mountain ridges that are found on the abyssal plains. Some of the peaks of underwater mountains rise above the ocean’s surface and form islands.
• Ocean trenches are long, deep cracks in the ocean floor. The deepest ocean trench is Challenger Deep (11,000 m) in the Pacific Ocean.
Continental relief
The main forms of continental relief are the following:
• Mountains, which may be isolated or grouped together in mountain ridges. Valleys are areas of low land between mountains.
• Plains are flat areas of land near the coast or in the basins of large rivers. Plateaus are high raised plains. Depressions are very low areas that may even be below sea level.
• On the coast we find other relief forms such as cliffs, which are steep rock formations, and beaches, which are found in flat coastal areas.
• Gulfs and bays (small gulfs) are where the sea extends inland. Capes and peninsulas are areas of land that extend into the sea.
2The Earth’s relief
THE EARTH’S RELIEF
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3
4
56
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The influence of relief on our lives
The nature and altitude of relief influences climate, vegetation and land use. It affects both population and economic activity:
• Most of the world’s population lives in flat areas below an altitude of 500 metres. These areas are mainly near the coast and in river valleys. The climate is mild, conditions are favourable for agriculture and there are good communications.
• Mountainous areas are usually sparsely populated. The climate is cold and wet, there is little agriculture and communications are expensive. The economy is often based on livestock or mining and, more recently, tourism.
However, technological advances have reduced our dependence on the environment. For example, modern communications reduce the isolation of mountain communities.
1. Peak. 2. Mountain range. 3. Valley. 4. Plateau. 5. Plain. 6. Depression. 7. Cliff. 8. Cape. 9. Gulf. 10. Beach. 11. Island. 12. Peninsula. 13. Continental shelf. 14. Continental slope. 15. Abyssal plain. 16. Oceanic ridge. 17. Marine trench.
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10
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12
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1 Define the following terms:
• Mountain range • Depression
• Continental shelf • Ocean ridge
• Abyssal plain • Gulf
2 Look for three photos on the Internet showing relief that has been modified by water, wind and people. In groups, show the photos to your classmates and explain the processes that have taken place.
3 Compare continental and oceanic relief. Are there any similarities?
ACTIVITIES
WORK WITH THE IMAGE
4 What are the main forms of continental relief?
5 Which types of relief are found in a coastal landscape?
11
Physical geography 1
K28,616 m
MountCook3,764 m
Teide3,715
Elbert4,399 m
Mount Elbrus5,642 m
Ojos del Salado6,880 m
Toubkal4,165
MountWhitney4,418 m
Mount Cameroon4,070 m
Mount Fuji3,776 m
Mount McKinley6,194 m
Mount Aconcagua6,960 m
Ras Dashen4,620 m
Mont Blanc4,807 m
Puncak Jaya5,030 m
Kilimanjaro5,895 m
Orizaba5,700 m
Ismoil Somoni Peak7,495 m
Beluja4,506 m
Sayan3,492 m
Pobeda3,147 mMount Narodnaya
1,894 m
Mount Everest8,850 m
4.042 m
MountEtna3,349 m3,478 m
Mulhacén
Mount Tahat3,003 m
Emi-koussi3,415 m
Mount Kosciusko2,230 m
Mount Kenya5,199 m
Cathkin3,660 m
Tajamuco4,217 m
Alaska Range
Mit
um
ba
Mou
ntai
ns
Scan
dina
vian
Mounta
ins
Verkhoyansk
Yablonovy R
ange
Stanovoy Range Kolyma U
pla
nd
Altai Mountains
Tien Shan
Mountains
Kunlun Mountains Zagros Mountains
Chimborazo6,267 m
BeaufortSea
RO
CK
Y M
OU
NT
AIN
S
BeringSea
Ber
ing
Str
ait
Yukon
Mackenzie river
Great BearLake
Great SlaveLake
GR
EA
T P
LA
I NS
Nelson river
HudsonBay
LakeWinnipeg
LakeSuperior
LakeMichigan
LakeHuron
YUCATANPENINSULA
Appal
ac
hian M
ountainsMissouri
Mis
siss
ippi
Mexican
plateau
Gulf ofAlaska
Cape Mendocino
Sierra Madre
LOWER CALIFORNIAPENINSULA
CapeCorrientes
Bravo
GREATBASIN
Gulf ofMexico
Cape Race
Newfoundland
Cape Hatteras
Baf�nBay
Davis
Str
ait
Cape Farewell
Denmark Strait
Greenland
A R C T I C O C E A N
GreenlandSea
Iceland
SargassoSea
NorwegianSea
BritishIsles North
Sea
North CapeBarents
Sea
CapeFinisterre
SCANDINAVIANPENINSULA
Baltic S
ea
A T L A N T I C
O C E A N
Cuba
LABRADORPENINSULA
Jamaica
Hispaniola
Puerto Rico
Caribbean Sea
LLANOS
Or in
oco Guiana
Highlands
Amazon
AMAZON BASIN
Mad
eira MATO
GROSSOPLATEAU
San
Fran
cisc
o
Para
náGulf ofArica
Altiplano
LakeTiticaca
AN
DE
S
GRANCHACO
THEPAMPAS
RiverPlate
PATA
GO
NIA
Stra
it of
Mag
ella
n Cape Horn
CapeSao Roque
PACIFIC
OCEAN
CanaryIslands
Cape of Good Hope
Niger
LakeChad
DARFURPLATEAU
CENTRALPLATEAU
OF ANGOLA
Congo
Rift
Va
lle
y
ATLAS MOUNTAINS
TibestiMountains
Drakensberg
Mo
un
tain
sM
ozam
biqu
e Ch
anne
l
Madagascar
LakeMalawi
LakeTanganyika
LakeVictoria
EthiopianPlateau
SOMALIPENINSULA
LIBYANDESERT
Nile
S A H A R A
KALAHARIDESERT
Orange
IBERIANPENINSULA
PYRENEES
ALPS
Rhine
Danub eITALIANPENINSULA
Mediterranean Sea
ANATOLIANPLATEAU
GREAT EUROPEAN PLAIN
Dn
iep
er
Do
n
Volga
EASTEUROPEAN
PLAIN
UR
AL M
OU
NTA
INS
Ural
Red Sea
BlackSea
Caspian Sea
CAUCASUSMOUNTAINSEuphrates
ARABIANPENINSULA
IRANIANPLATEAU
Hindu
Kus
h
WESTSIBERIAN
PLAIN
AralSea
LakeBalkhash
Irtysh
Ob
Yenisey
TAYMIR
PENINSULA
KaraSea
East SiberiaSea
LakeBaikal
CENTRAL SIBERIANPLATEAU
GOBI DESERT
PLATEAUOF TIBETHIMALAYAS
Kolim
a
BeringSea
KAMCHATKAPENINSULA
Amur
MA
NCH
URI
A
Yello
w river
NORTH CHINAPLAIN
Yangtze
Mekong
THAR
DESERT
HINDUSTANPENINSULA
ArabianSea
INDOCHINAPENINSULA
PersianGulf
CapeVerde
Cape Guardafui
Bay ofBengal
Sumatra
Java
Borneo New Guinea
CapeComorin
Coral Sea
GR
EA
T DIV
IDIN
G R
AN
GE
South ChinaSea
Philippines
MELANESIA
MICRONESIA
KIMBERLEY
PLATEAU
GREAT SANDYDESERT
GREAT VICTORIADESERT
Dar
ling
Tasmania
Murray
North WestCape
CapeLeeuwin
GreatAustralian
Bight
New Zealand
I N D I A N
O C E A N
Drake Passage
ANTARCTICPENINSULA
WeddellSea
Zambezi
S O U T H E R N O C E A N
POLYNESIA
Ganges
Indus
THE EARTH’S RELIEF
FLORIDAPENINSULA
CARPATHIANMOUNTAINS
80º
60º
40º
Antarctic Circle
0º
20º
40º
60º
80º
180º 150º 120º 90º 60º 30º 0º 30º 60º 90º 120º 150º 180º
80º
60º
40º
20º
0º
20º
40º
60º
80º
180º150º120º90º60º30º0º30º60º90º120º150º180º
Tropic of Capricorn
Equator
Tropic of Cancer
Arctic Circle
Sea ofOkhotsk
Cape Lopatka
KOREANPENINSULA
Japan
Formosa
Ahaggar Mountains
.
0 880
kilometres
Scale
509798_01_p18_19_mundi_�sico
• Africa. The continent has a high average elevation of 750 metres because of its many plateaus. There are great deserts, like the Sahara and Kalahari. The main mountain ranges are the Atlas Mountains and the Drakensberg Mountains. The Great Rift Valley is in the east. The coastline is regular.
• Asia. Mountain ranges are mainly in the centre. The Himalayan mountain range contains Mount Everest, the highest peak in the world. Plateaus include the Plateau of Tibet, the highest in the world. Vast plains are crossed by long rivers. The main basins contain inland seas: the Caspian, Aral and Dead Seas. The coastline is irregular. There are many peninsulas, gulfs, islands and archipelagos: Japan, the Philippines, Indonesia…
• America. The great mountain ranges (the Rocky Mountains, Sierra Madre and the Andes) run parallel to the Pacific Coast. In the interior, plateaus include the Matto Grosso and the Bolivian Altiplano. The Great Plains are in North America. The coastline of North America is more irregular than that of South America.
• Europe. Great plains occupy the centre and east of the continent. The oldest mountains are in the north (Scandinavian mountains) and east (Urals), but they are not high because of erosion. High, young mountain ranges form an arc around the Mediterranean Sea: the Pyrenees, Alps, Carpathians, Balkans and Caucasus. The coastline is irregular. It has many peninsulas and islands like Iceland and Sicily.
• Oceania. Relief varies from one island to another. Australia has coastal plains, low desert in the interior and the Great Dividing Range in the east. New Guinea and New Zealand are mountainous. The Pacific islands are mainly low.
• Antarctica. It has the highest average altitude (2,000 metres) and is mainly covered by ice.
3The continents
THE EARTH'S RELIEF
Major peaks
Main rivers
Lakes
2,500 m
2,000 m
1,500 m
1,000 m
400 m
200 m
0 m
509798_01_p18_19_leyenda_mundi_fisico
12
K28,616 m
MountCook3,764 m
Teide3,715
Elbert4,399 m
Mount Elbrus5,642 m
Ojos del Salado6,880 m
Toubkal4,165
MountWhitney4,418 m
Mount Cameroon4,070 m
Mount Fuji3,776 m
Mount McKinley6,194 m
Mount Aconcagua6,960 m
Ras Dashen4,620 m
Mont Blanc4,807 m
Puncak Jaya5,030 m
Kilimanjaro5,895 m
Orizaba5,700 m
Ismoil Somoni Peak7,495 m
Beluja4,506 m
Sayan3,492 m
Pobeda3,147 mMount Narodnaya
1,894 m
Mount Everest8,850 m
4.042 m
MountEtna3,349 m3,478 m
Mulhacén
Mount Tahat3,003 m
Emi-koussi3,415 m
Mount Kosciusko2,230 m
Mount Kenya5,199 m
Cathkin3,660 m
Tajamuco4,217 m
Alaska Range
Mit
um
ba
Mou
ntai
ns
Scan
dina
vian
Mounta
ins
Verkhoyansk
Yablonovy R
ange
Stanovoy Range Kolyma U
pla
nd
Altai Mountains
Tien Shan
Mountains
Kunlun Mountains Zagros Mountains
Chimborazo6,267 m
BeaufortSea
RO
CK
Y M
OU
NT
AIN
S
BeringSea
Ber
ing
Str
ait
Yukon
Mackenzie river
Great BearLake
Great SlaveLake
GR
EA
T P
LA
I NS
Nelson river
HudsonBay
LakeWinnipeg
LakeSuperior
LakeMichigan
LakeHuron
YUCATANPENINSULA
Appal
ac
hian M
ountainsMissouri
Mis
siss
ippi
Mexican
plateau
Gulf ofAlaska
Cape Mendocino
Sierra Madre
LOWER CALIFORNIAPENINSULA
CapeCorrientes
Bravo
GREATBASIN
Gulf ofMexico
Cape Race
Newfoundland
Cape Hatteras
Baf�nBay
Davis
Str
ait
Cape Farewell
Denmark Strait
Greenland
A R C T I C O C E A N
GreenlandSea
Iceland
SargassoSea
NorwegianSea
BritishIsles North
Sea
North CapeBarents
Sea
CapeFinisterre
SCANDINAVIANPENINSULA
Baltic S
ea
A T L A N T I C
O C E A N
Cuba
LABRADORPENINSULA
Jamaica
Hispaniola
Puerto Rico
Caribbean Sea
LLANOS
Or in
oco Guiana
Highlands
Amazon
AMAZON BASIN
Mad
eira MATO
GROSSOPLATEAU
San
Fran
cisc
o
Para
náGulf ofArica
Altiplano
LakeTiticaca
AN
DE
S
GRANCHACO
THEPAMPAS
RiverPlate
PATA
GO
NIA
Stra
it of
Mag
ella
n Cape Horn
CapeSao Roque
PACIFIC
OCEAN
CanaryIslands
Cape of Good Hope
Niger
LakeChad
DARFURPLATEAU
CENTRALPLATEAU
OF ANGOLA
Congo
Rift
Va
lle
y
ATLAS MOUNTAINS
TibestiMountains
Drakensberg
Mo
un
tain
sM
ozam
biqu
e Ch
anne
l
Madagascar
LakeMalawi
LakeTanganyika
LakeVictoria
EthiopianPlateau
SOMALIPENINSULA
LIBYANDESERT
Nile
S A H A R A
KALAHARIDESERT
Orange
IBERIANPENINSULA
PYRENEES
ALPS
Rhine
Danub eITALIANPENINSULA
Mediterranean Sea
ANATOLIANPLATEAU
GREAT EUROPEAN PLAIN
Dn
iep
er
Do
n
Volga
EASTEUROPEAN
PLAIN
UR
AL M
OU
NTA
INS
Ural
Red Sea
BlackSea
Caspian Sea
CAUCASUSMOUNTAINSEuphrates
ARABIANPENINSULA
IRANIANPLATEAU
Hindu
Kus
h
WESTSIBERIAN
PLAIN
AralSea
LakeBalkhash
Irtysh
Ob
Yenisey
TAYMIR
PENINSULA
KaraSea
East SiberiaSea
LakeBaikal
CENTRAL SIBERIANPLATEAU
GOBI DESERT
PLATEAUOF TIBETHIMALAYAS
Kolim
a
BeringSea
KAMCHATKAPENINSULA
Amur
MA
NCH
URI
A
Yello
w river
NORTH CHINAPLAIN
Yangtze
Mekong
THAR
DESERT
HINDUSTANPENINSULA
ArabianSea
INDOCHINAPENINSULA
PersianGulf
CapeVerde
Cape Guardafui
Bay ofBengal
Sumatra
Java
Borneo New Guinea
CapeComorin
Coral Sea
GR
EA
T DIV
IDIN
G R
AN
GE
South ChinaSea
Philippines
MELANESIA
MICRONESIA
KIMBERLEY
PLATEAU
GREAT SANDYDESERT
GREAT VICTORIADESERT
Dar
ling
Tasmania
Murray
North WestCape
CapeLeeuwin
GreatAustralian
Bight
New Zealand
I N D I A N
O C E A N
Drake Passage
ANTARCTICPENINSULA
WeddellSea
Zambezi
S O U T H E R N O C E A N
POLYNESIA
Ganges
Indus
THE EARTH’S RELIEF
FLORIDAPENINSULA
CARPATHIANMOUNTAINS
80º
60º
40º
Antarctic Circle
0º
20º
40º
60º
80º
180º 150º 120º 90º 60º 30º 0º 30º 60º 90º 120º 150º 180º
80º
60º
40º
20º
0º
20º
40º
60º
80º
180º150º120º90º60º30º0º30º60º90º120º150º180º
Tropic of Capricorn
Equator
Tropic of Cancer
Arctic Circle
Sea ofOkhotsk
Cape Lopatka
KOREANPENINSULA
Japan
Formosa
Ahaggar Mountains
.
0 880
kilometres
Scale
509798_01_p18_19_mundi_�sico
WORK WITH THE MAP
1 Prepare a table with information about Africa, Asia, America, Europe and Oceania. Include at least one example of each of the following:
• Mountain ranges. (Name the highest peak on each continent.)
• Plateaus and plains.
• Peninsulas and islands.
13
Physical geography 1
Water covers more than 70% of the Earth’s surface. Some water is found on the continents, but most of it is in the oceans and seas.
Continental water
Rivers, lakes, groundwater and ice contain fresh water. They make up about 3% of all the Earth’s water.
• Rivers are continuous flows of water that originate in rain, melting ice or groundwater. They flow into a sea, a lake or another river. Rivers are important because they provide water for human consumption, agriculture, hydroelectric energy and industry. They are also important communication routes.
• Lakes are enclosed masses of water which accumulate in depressions. Salt water lakes are called inland seas.
• Groundwater accumulates when rain and river water infiltrates porous ground. This water flows downwards until it reaches a layer of impermeable rock and forms an underground deposit called an aquifer. Groundwater feeds rivers and lakes, and it is our main reserve of drinking water.
• Ice is found at the polar ice caps and in mountain glaciers. Antarctica holds most of the Earth’s fresh water in the form of ice.
Marine water
Oceans and seas hold 97% of the Earth’s water. They are in constant movement:
• Marine currents are masses of water which move like rivers through the oceans. A warm current has a higher temperature than the surrounding water. A cold current has a lower temperature. Currents have a considerable influence on the climate of coastal regions.
• Tides are the daily rise and fall in the sea level caused by the gravitational pull of the Moon and Sun. High tide is when the sea level rises, and low tide is when it falls.
• Waves are the undulating movements of water on the surface of the sea. They are caused by the wind.
4Water
The distribution of water on Earth.
Sea water 97%
Fresh water3%
Ice 79%Total fresh water
Totalsurface water
Atmosphere 10%
Biosphere 1%
Rivers 1%Lakes 50%
In the ground38%
Groundwater 20%
Surface water 1%
WORK WITH THE GRAPH
1 What percentage of the Earth’s water is saltwater? What percentage is fresh water?
2 Which types of water are continental? Which one has the greatest volume?
Scientists say that rising temperatures are causing ice to melt in Antarctica.
• What is the cause of these rising temperatures?
• If this trend continues, what effect will it have on our planet?
THINK ABOUT IT
14
Gre
enw
ich
Mer
idia
n
Antarctic Circle
INDIANOCEAN
PACIFICOCEAN
ARCTIC OCEANArctic Circle
ATLANTIC
OCEAN
Tropic of Cancer
Equator
Tropic of Capricorn
OCEAN
SOUTHERN OCEAN
California
Labrador
NorthEquatorial
Humboldt
Cape Horn
Brazil
Benguela
Caribbean
Canary
Gulf Stream
Kuroshio
South Equatorial
509798_01_p21_corrientes_mundi
PACIFIC
0 1,800
kilometres
Scale
OCEANIC CIRCULATION
OCEAN CIRCULATION
Water as a scarce resource
Water is a precious resource:
• Most water is not suitable for consumption. Nearly all the Earth’s water is salt water and cannot be used. Most fresh water is found in the form of ice or deep under the ground.
• Overexploitation of the Earth’s water has led to the depletion of aquifers, and a sharp reduction in the size of many lakes.
• The distribution of water on Earth is uneven. Its availability can vary between seasons, and from one year to the next.
Hydraulic engineering (for example reservoirs, canals, desalination plants and wells) helps to make water available all year round. These infrastructures have a considerable impact on landscapes and the environment.
Warm currentCurrents
Cold current
509798_01_p21_leyenda_corrientes_mundi WORK WITH THE MAP
3 Why are European coastal regions warmer than most places at the same latitude?
The importance of water in our lives
Water is essential for life. We need it for drinking and we use it for washing, irrigation, transport, energy production, and in industrial processes. It is also an important tourist resource. For thousands of years, people have made their homes by the water in coastal areas and near rivers, lakes and springs.
• In small groups, exchange ideas about all the ways that water is used. Then choose three examples to illustrate the influence of water in our lives, and discuss them with the class.
THINK ABOUT IT
4 Define the following terms:
• Inland sea • Glacier
• Reservoir • Tide
• Aquifer • Wave
5 Where does most of the water that we use come from?
ACTIVITIES
15
Physical geography 1
BeaufortSea
BeringSea
Yukon Great BearLake
Great SlaveLake
Nelson
LakeWinnipeg
LakeSuperior
LakeMichigan
LakeHuronM
issouri
Mis
siss
ippi
Bravo
NorwegianSea
NorthSea
BarentsSea
Baltic
Sea
A T L A N T I C
O C E A N
Caribbean Sea
Ori
noco
Amazon
Para
ná
LakeTiticaca
P A C I F I C
O C E A N
Niger
Lake Chad
Congo
LakeTanganyika
LakeVictoria
Nile
Orange
Rhine
M edit e r ra nean Se a
Dnieper
Do
n
Volga
Red Sea
Black Sea
Caspìan Sea
Euphrates
AralSea
LakeBalkhash
Irtysh
Ob
Len
a
KaraSea
East SiberiaSea
LakeBaikal
BeringSea
Amur
Yello
w River
Yangtze
Mekong
ArabianSea
Coral Sea
SouthChinaSea
Dar
ling
I N D I A N
O C E A N
WeddellSea
Zambezi
Ga
nges
Indu
s
Sea ofOkhotsk
Yenisey
LakeErie
GREATLAKES
P A C I F I C
O C E A N
Murray
Danube
60º
Antarctic Circle
Tropic of Capricorn
Equator
Tropic of Cancer
Sea of Japan
Kol
yma
A R C T I C O C E A N
S O U T H E R N O C E A N
509798_01_p22_23_Mundi_aguas
Arctic Circle
Gre
enw
ich
Mer
idia
n
0 900
kilometres
Scale
Tajo
Colu
mbi
a
Col
orado
Pa
ragu
ayU
rugu
ay
LakeMaracaibo
LakeOnega
LakeLadoga
THE EARTH’S RIVERS AND LAKES
• Africa. Among the rivers that flow into the Mediterranean Sea, only the Nile River has an abundant flow. It is the longest river in the world. The rivers that flow into the Atlantic Ocean, like the Niger and Congo, have an abundant flow. So too do the rivers that flow into the Indian Ocean, like the Zambezi River. There are many lakes in Africa. The biggest is Lake Victoria.
• Asia. Many rivers are long and have an abundant flow, which increases when they are fed by melting ice and monsoon rains. Their sources are in inland mountains, they flow across extensive plains and they are partly navigable. The Arctic rivers freeze in winter. The Yangtse River is the longest Asian river. Lake Baikal is the deepest lake in the world, and the Caspian Sea is the biggest lake.
• America. On the Atlantic side, rivers like the Mississippi and the Amazon are the longest and have the greatest flow. On the Pacific side, rivers are shorter because their sources are in the mountains near the coast. The five Great Lakes are in North America.
• Europe. The flow of European rivers is determined by climate. The Atlantic rivers have the greatest flow because they receive abundant rainfall all year. As a result, they are navigable. In general, the Mediterranean rivers have a low, irregular flow and their water levels decrease in the summer. Important European rivers include the Danube, which flows into the Black Sea, and the Volga, which is the longest on the continent. The biggest lakes are Ladoga and Onega in north-west Russia.
• Oceania. The longest rivers are the Murray and its tributary, the Darling, in Australia.
5Rivers and lakes of the world
Rivers
Lakes
509798_01_p22_23_leyenda_mundo_aguas
THE WORLD'S RIVERS AND LAKES
16
BeaufortSea
BeringSea
Yukon Great BearLake
Great SlaveLake
Nelson
LakeWinnipeg
LakeSuperior
LakeMichigan
LakeHuronM
issouri
Mis
siss
ippi
Bravo
NorwegianSea
NorthSea
BarentsSea
Baltic
Sea
A T L A N T I C
O C E A N
Caribbean Sea
Ori
noco
Amazon
Para
ná
LakeTiticaca
P A C I F I C
O C E A N
Niger
Lake Chad
Congo
LakeTanganyika
LakeVictoria
Nile
Orange
Rhine
M edit e r ra nean Se a
Dnieper
Do
n
Volga
Red Sea
Black Sea
Caspìan Sea
Euphrates
AralSea
LakeBalkhash
Irtysh
ObLe
na
KaraSea
East SiberiaSea
LakeBaikal
BeringSea
Amur
Yello
w River
Yangtze
Mekong
ArabianSea
Coral Sea
SouthChinaSea
Dar
ling
I N D I A N
O C E A N
WeddellSea
Zambezi
Ga
nges
Indu
s
Sea ofOkhotsk
YeniseyLakeErie
GREATLAKES
P A C I F I C
O C E A N
Murray
Danube
60º
Antarctic Circle
Tropic of Capricorn
Equator
Tropic of Cancer
Sea of Japan
Kol
yma
A R C T I C O C E A N
S O U T H E R N O C E A N
509798_01_p22_23_Mundi_aguas
Arctic Circle
Gre
enw
ich
Mer
idia
n
0 900
kilometres
Scale
Tajo
Colu
mbi
a
Col
orado
Pa
ragu
ayU
rugu
ay
LakeMaracaibo
LakeOnega
LakeLadoga
THE EARTH’S RIVERS AND LAKES
WORK WITH THE MAP
1 Prepare a table listing the most important rivers on each continent. Classify them in groups according to the ocean or sea that they flow into.
THE WORLD'S RIVERS AND LAKES
17
Physical geography 1
The sun does not warm all the Earth’s surface to the same extent. When the Sun’s rays are perpendicular (as in the tropical zone), the amount of solar energy is considerable. When the Sun’s rays fall at an oblique angle (as in the polar regions), the amount of energy is very low. In terms of latitude, there are five main climate zones:
• A hot zone, between the tropics. The average annual temperature is over 20 ºC.
• Two temperate zones, between 30º and 60º latitude in both hemispheres. Solar radiation is not as high, and there is a clear seasonal difference between summer and winter.
• Two cold zones, from 60º to 90º latitude in both hemispheres. Solar radiation is weak and temperatures are low all year round.
Altitude, relief and proximity to the sea also influence climate. There are different types of climates within each main climate zone: hot (equatorial, tropical and desert), warm (Mediterranean, oceanic and continental) and cold (polar and mountain).
Climate has a great influence on human societies. Extreme temperatures and humidity make life more difficult: deserts, forests, high mountains and the polar regions are sparsely populated. More than 70% of the world’s population lives in temperate zones.
6Climates and landscapes
0°
Antarctic Circle
Equator
Tropic of Cancer
Arctic Circle
Tropic of Capricorn
PACIF IC
OCEAN
INDIAN
OCEAN
ATLANTIC
OCEAN
PACIF IC
OCEAN
A R C T I C O C E A N
Gre
en
wic
h M
eri
dia
n
SOUTHERNOCEAN
0 1,255
kilometres
Scale
Temperate climates
Mediterranean
Oceanic
Continental
Hot climates
Equatorial
Tropical wet
Tropical dry
Desert
Climate zones
Cold zones
Temperate zones
Hot zones
Cold climates
High mountain
Polar
509798_01_p24_climas_mundo
THE EARTH’S CLIMATESTHE EARTH’S CLIMATES
The angle of the Sun’s rays and climate zones.
Cold zone
Cold zone
Temperate zone
Temperate zone
Hot zone
WORK WITH THE IMAGE
1 Explain the influence of the angle of the Sun’s rays on the Earth’s climates.
1818
CLIMATES AND LANDSCAPES
CLIMATE LOCATION TEMPERATURES PRECIPITATION LANDSCAPEH
OT
CLI
MA
TES
Equatorial Near the Equator, between 10º N and 10º S.
Average annual temperatures are around 25 ºC, with little variation (less than 3 ºC). It is hot all year round.
Total annual precipitation is higher than 2,000 mm. It rains every month.
Rainforest (dense green vegetation).
Tropical
Between 10º and 30º N and 10º and 30º S, at the same latitude as the desert climate.
Average annual temperature is over 20 ºC. Variation is between 3 ºC and 10 ºC, increasing further from the Equator.
The annual total ranges between 2,000 mm (south-east Asia) and less than 400 mm (near deserts). Seasons alternate between dry and wet.
Tropical rainforest and savannah (a grassy plain with few trees).
DesertIt shares latitudes with the tropical climate.
Average annual temperatures are high, over 20 ºC. There are big differences between day and night.
Scarce, under 250 mm, and irregularly distributed.
Desert. Vegetation is only found at oases.
TEM
PER
ATE
CLI
MA
TES
MediterraneanBetween latitudes 30º and 40º.
Average annual temperature ranges between 10 ºC and 18 ºC. Temperature variations are between 12 ºC and 16 ºC. Summers are hot and winters are mild.
This ranges between 900 mm and 300 mm a year. Distribution is irregular and summers are very dry.
Mediterranean woodland (holm oak and cork trees) and scrub.
Oceanic or Atlantic
Between 40º and 50º latitude (and even up to 60º).
Annual mean temperature ranges from 10 ºC to 15 ºC. Variation is low (from 10 ºC to 12 ºC) Winters are mild and summers are cool.
Annual total is around 1,000 mm. It is regular throughout the year.
Deciduous forest (oak and beech) and moorland (scrub land with dense vegetation).
ContinentalInland, in North America, Europe and Asia.
Average annual temperatures are between 0 ºC and 10 ºC. Variation is very high. Winters are long and cold, and summers are short and hot.
This ranges between 750 mm and 300 mm. It is irregular, with maximum precipitation in summer.
Taiga or conifer forests (evergreen species like fir and pine trees). Prairies and steppes.
CO
LD C
LIM
ATE
S Polar Near the poles.Average annual temperatures are below 0 ºC. It is never higher than 10 ºC.
This is scarce, less than 250 mm annually. It mainly falls as snow.
Tundra (an area of mosses and lichens).
High mountain
High mountainous areas.
These decrease with altitude (0.6 ºC every 100 metres). Summers are short and cool. Winters are long and very cold.
This increases with altitude, especially on the side where the wind blows.
Vegetation varies according to altitude: trees, bushes, scrub and prairie land.
WORK WITH THE MAP
2 Which climates are found in Europe? How are they distributed?
3 If two places are at the same latitude, will they always have the same climate?
4 How many climate zones does the Earth have?
5 What is precipitation like in a desert climate? And in a polar climate? How do these climates differ?
6 Describe the equatorial and continental landscapes.
7 Does climate influence the distribution of world population? Explain your answer.
ACTIVITIES
19
Physical geography 1
19
Spain consists of most of the Iberian Peninsula, the Balearic and Canary archipelagos and the cities of Ceuta and Melilla.
The formation of Spain’s relief
A long mountain range was formed in the west of the Iberian Peninsula about 300 million years ago. Over time, it was completely eroded and formed a large raised plateau. During the Tertiary Era (65 million to 2 million years ago), the internal forces of the Earth caused great changes:
• The plateau fractured. Some blocks sank down, filled with sedimentary material and became the Inner Plateau.
• Other blocks rose and became the Galician Massif, the western part of the Cantabrian Range, the Mountains of Toledo and Sierra Morena.
• The materials deposited at the edge of the plateau twisted, and became the eastern part of the Cantabrian Range and the Iberian Mountain Chain.
• The Ebro and Guadalquivir depressions were formed at the same time as the Pyrenees and the Baetic Chain.
• Volcanic activity on the bed of the Atlantic Ocean formed the Canary Islands.
The rocky substrate
The substrate of Spain is very varied. There are four main types of rocks:
• Siliceous rocks like granite or slate. These are very old, rigid rocks from the Primary or Palaeozoic era which began 570 million years ago. They are found mostly in the west of the Peninsula.
• Limestone rocks come from marine sediments deposited during the Secondary or Mesozoic era which began 230 million years ago. They are abundant in the Pyrenees, the eastern half of the Cantabrian Range, the Iberian Mountain Chain, the Catalan Coastal Chain and the Baetic Chain.
• Clays are fine rocks deposited in low areas in the late Tertiary era and during the Quaternary era, 1.6 million years ago. They predominate in the Inner Plateau, Ebro and Guadalquivir basins, and the coastal plains.
• Volcanic rocks were formed in the Tertiary era and are common in the Canary Islands. They can also be found on the Peninsula in the provinces of Ciudad Real, Almería and Gerona.
7The relief of Spain
A volcanic landscape in Gata Cape (Almería).
A clay landscape near the Najerilla River in La Rioja.
Eroded limestone in Torcal de Antequera (Málaga).
A granite landscape in Galicia.
WORK WITH THE PHOTOS
1 Can landscapes similar to the ones in the photos be found in other parts of Spain?
20
PHYSICAL RELIEF OF SPAIN
The relief of Spain
Spain has an average altitude of 660 metres and is the second most mountainous country in Europe after Switzerland. Peninsular relief has three main features:
• The Inner Plateau forms the central part of the Iberian Peninsula. It is divided into two sub-plateaus by the Central Mountain Chain. The Northern Sub-plateau is made up of the sedimentary basin of the Duero and the Castilian low-relief plains. The Southern Sub-plateau is crossed by the Mountains of Toledo and is formed by the sedimentary basins of the Tajo and the Guadiana, the plain of La Mancha, and the low-relief plains of Extremadura.
• The Galician Massif, the Cantabrian Range, the Iberian Mountain Chain and the Sierra Morena surround the Inner Plateau.
• The following features are beyond the Inner Plateau: the Pyrenees, the Baetic Chain, the Catalan Coastal Chain and the Guadalquivir and Ebro river basins.
The relief of the coasts and islands
Spain has more than 4,000 kilometres of coastline.
• The coasts of Cantabria and Galicia have rocky cliffs and estuaries (rías).
• The coasts of western Andalusia receive sediment transported by the Guadalquivir and are very sandy.
• On the Mediterranean coast, long beaches alternate with cliffs in places where the mountains reach the coast.
The relief of the islands: the Balearic Islands are an extension of the Baetic Chain. Mount Teide (3,718 metres), the highest mountain in Spain, is on Tenerife in the Canary Islands.
WORK WITH THE MAP
2 Which mountains surround the Inner Plateau? Which ones cross it?
3 Identify the main relief features beyond the Inner Plateau.
#
##
#
#
#
#
#
#
Cape OrtegalEstaca de Bares
Point
GA
LICIA
N M
ASS
IF
MO
UNTA
INS
OF
LEO
N BASQUE P Y R E N E E S
CATA
LAN
C
OASTAL CHAIN
Mountains
INNER
PLATEAU
S I E R R A M O R E N A
GU
AD
AL
QU
IVIR R IVER BASIN
MOUNTAINS OF TOLEDO
SUB-BAETIC RANGE
PENIBAETIC RANGE
Guadarrama Mountain Range
Gata Mountains
AracenaMountains
Cape Creus
Cape Tortosa
Gulf ofValencia
CapeNao
Cape Palos
Cape Gata
Gulf of Cádiz
Madrona Mountains
Somosierra
Serraníade Cuenca
Strait of GibraltarTarifaPoint
Cape Touriñan
Cape Peñas CapeAjo Bay of
Biscay
MIÑO
DUERO
TAJO
EBRO
JÚ
CA R
GUADIANA
GU
ADALQUIVIR
SEGURA
Cape FinisterrePicos de Europa
Gulf ofLion
Gulf of Roses
Sierra d
e
Sierra Nevada
EBRO R IVER BAS IN
Roque de los Muchachos 2.426 m
Punta deFuencalienteGarajonay
1.487 mTeide3.718 m
Punta de Jandía
B A L E A R I C I S L A N D S
Mallorca
Menorca
Ibiza
Formentera
GRANCANARIA
TENERIFE
EL HIERROLA GOMERA
LA PALMA
Picode las Nieves
1.949 m
AyllónMountains
Albufera
EbroDelta
GuadalquivirMarshes
Calderade Taburiente
Guadalupe Mountains
Picos de Urbión
Mountains
A lbarracín
Demanda
Punta de Anaga
Rock of Ifach
MOUNTAINS
Cabrera
Cape Salou
NorthernSub-plateau
SouthernSub-plateau
Tramunta
na
CANTABRIAN RANGE
CENTRAL MOUNTAIN CHAIN
IBERIAN MOUNTAIN CHAIN
BAETIC CHAIN
M O R O C C O
Gre
enw
ich
Mer
idia
n
ANDORRA
Moncayo2,313 m
Mulhacén3,479 m
Puig Major1.436 m
Teleno2,188 m
Turó del'Home1,706m
Torrecerredo2,648 m
Aneto3,404 m
Almanzor2,591 m
Cabeza deManzaneda
1,781 m
#
ATLANTIC OCEAN
La Palma
El Hierro
La Gomera
TenerifeGran
Canaria
FuerteventuraLanzarote
C A N A R Y I S L A N D S
Teide3,718 m
AT
LA
NT
IC
O
CE
AN
M e d i t e r r a n e a n S
ea
C a n t a b r i a n S e aF R A N C E
509798_01_p27_Espana_Fisico
PO
RT
UG
AL
0 90
kilometres
Scale
PHYSICAL RELIEF OF SPAIN
´
Major peaks
Main rivers
2,000 m
1,500 m
1,000 m
700 m
400 m
0 m
509798_01_p27_leyenda_Espana_Fisico
21
The mouth of the Nalón River in the estuary (or ría) near Pravia.
Rivers
The Iberian Peninsula has three watersheds, which are the dividing lines between drainage basins: they are the Cantabrian, the Atlantic and the Mediterranean. They have very different characteristics.
• The Cantabrian watershed: the rivers which flow into the Cantabrian Sea.
– These rivers are short because their source is in mountains near the sea. Their flow is abundant and regular throughout the year.
– From east to west, the main rivers are the Bidasoa, Nervión, Nalón, Narcea, Navia and Eo.
• The Atlantic watershed: the Galician rivers and those which cross the Inner Plateau and the Guadalquivir depression.
– Except for those in Galicia, these rivers are long. They cross wide plains and their flow is abundant thanks to their tributaries. However, their flow is irregular and diminishes in summer.
– From north to south, the main rivers are: the Miño, with its tributary the Sil; the Duero, whose basin is the largest in Spain; the Tajo, which is the longest river on the Peninsula; the Guadiana, which in some places runs underground through limestone terrain; the Guadalquivir, which forms an extensive landscape of marshes where it flows into the Atlantic Ocean.
• The Mediterranean watershed is smaller than the Atlantic watershed. This is because the Iberian Mountain Chain and Baetic Chain (which divide the two watersheds) are close to the Mediterranean Sea.
– The Ebro is long and has an abundant flow because it rains a lot near its source and it is fed by tributaries in the Pyrenees. At its mouth, it forms an extensive delta.
– The other rivers in the Mediterranean watershed are shorter, with a weak and very irregular flow. They include the Ter, Llobregat, Turia, Júcar and Segura.
– This watershed also has ramblas, which are dry river beds that only carry water when it rains heavily, usually in autumn.
8Water in Spain
The Guadiana River as it flows through Medellín (Badajoz).
Ibón de Acherito, in the Pyrenees of Aragón.
WORK WITH THE PHOTOS
1 What type of surface water does each photo show?
22
MIÑO
DUERO
TAJO
E B R O
JÚC
A
RGUADIANA
GUADALQUIVIR SEGURA
Sil
UllaTambre
E
o
N
avia
TiétarAlberch
e TURIA
Guadalete
Odi
el
Tinto
Záncara
Segr
e
Gál
leg
o
Llo
bre
gat
Roque de los Muchachos 2.426 m
Punta deFuencalienteGarajonay
1.487 mTeide3.718 m
Punta de Jandía
E sla
P
isu
erg
a
GRANCANARIA
TENERIFE
LA GOMERA
LA PALMA
Picode las Nieves
1.949 m
Nalón
Nar
ce
a
Arlanza
Arg
a
Cin
ca Ter
Hue
rva
Ad
aja
CegaTormes
Taju
ñaCi
güela
Genil
Alagón
Cabriel
Albufera
GuadalquivirMarshes
Calderade Taburiente
Punta de AnagaB idasoa
IznájarReservoir
Ner
vió
nM O R O C C O
La SerenaReservoir
AlarcónReservoir
Gre
enw
ich
Mer
idia
n
SanabriaLake
ANDORRA
AT
LA
NT
IC
O
CE
AN
M e d i t e r r a n e a n S
e a
C a n t a b r i a n S e aF R A N C E
509798_01_p29_Espana_rios
PO
RT
UG
AL
0 90
kilometres
Scale
RIVERS AND LAKES IN SPAIN
RIVERS AND LAKES OF SPAIN
Lakes
There are many lakes and wetlands in Spain (over 2,000), but they are not very large. They are of great ecological value and form a natural habitat for many species of plants and animals. They also provide stopovers for migratory birds.
Mountain lakes like Sanabria, Peñalara and Laguna Negra, as well as a number of small Pyrenean lakes (called ibones), originated in glaciers. Other lakes, such as Lagunas de Riduera, were formed when limestone rock dissolved in water.
Groundwater
An aquifer is formed from surface water which filters into the ground. The water runs down through porous materials until it reaches a layer of impermeable rock where it accumulates.
In Spain, this natural resource is very important during droughts, and in regions with few rivers and lakes. Groundwater is mainly used for human consumption and agricultural irrigation.
509798_01_p29_leyenda_Espana_rios
Rivers
Ravines
Lakes and reservoirs
Cantabrian
Mediterranean
Atlantic
Watersheds
2 Which river watersheds are found in Spain? What are the rivers like in each watershed?
3 Explain why aquifers are so important.
ACTIVITIES
WORK WITH THE MAP
4 Name three important rivers in each watershed.
5 What is the longest river on the Iberian Peninsula? Does it only flow through Spain?
6 Are Atlantic rivers longer or shorter than Cantabrian rivers? Explain your answer.
7 Find the mountain lakes mentioned in the text. In which mountain ranges are they located?
23
Factors influencing climate
Climate is influenced by the following factors:
• Latitude. The Iberian Peninsula and the Balearic Islands are in the southern half of the temperate zone. They therefore have seasons and receive a lot of sunlight. The Canary Islands, situated at a subtropical latitude, have mild, steady temperatures all year round.
• Location. Spain is on one continent (Europe), but close to another (Africa). It is between two great masses of water, the Atlantic Ocean and the Mediterranean Sea. As a result, it receives hot and cold air masses from both land and sea.
• Influence of the sea. This regulates temperatures along the coasts and on the archipelagos throughout the year. However, inland there are much greater variations between high and low temperatures.
• Relief. At higher altitudes, temperatures fall and precipitation increases. The orientation of the mountains determines whether a place receives a lot of wind and sunlight. Mountain ranges act as barriers which block air masses.
9Climates and landscapes of Spain
ATLANTIC OCEAN
Cantabrian Sea
AT
LA
NT
IC
O
CE
AN
MediterraneanSea
509798_01_p30_a_isotermas_espana
Map of isotherms
10
7.5
12.5
17.5
15
20
AVERAGE ANUALTEMPERATURE (in ºC)
0 400 800 1,200 1,600 2,000
AVERAGE ANNUAL PRECIPITATION(in mm)
509798_01_p30_b_isoyetas_espana
ATLANTIC OCEAN
Map of isohyets
Cantabrian Sea
MediterraneanSea
AT
LA
NT
IC
O
CE
AN
Map of isotherms. The lines connect places with the same annual mean temperature.
Map of isohyets. The lines connect places with the same amount of precipitation.
1 Does relief influence climate on the Peninsula?
2 Is the Mediterranean climate the same everywhere?
3 Why is a mountain climate found in many parts of northern Spain?
ACTIVITIES
WORK WITH THE MAPS
4 Where do we find the highest average temperatures? Where do we find the lowest?
5 Where does it rain most?
6 Is there a relation between areas with high temperatures and areas with low rainfall?
24
CANARY ISLANDSATLANTIC OCEAN
Cantabrian Sea
509798_01_p31_climas_Espana
A T L A N T I C
O C E A N
M e d i t e r r a n e a n S e a Oceanic
Climate
Mountain
Typical
Continentalised
Semi-arid
Mediterranean
Subtropical
CLIMATES OF SPAIN
CLIMATES OF SPAIN
Climates and landscapes
• The oceanic climate extends across northern Spain. Temperatures are mild, with cool winters and warm summers. Precipitation is abundant and regular (more than 800 mm annually).
The landscape has been humanised. In many areas, deciduous oak and beech trees have been replaced by pine and eucalyptus trees, as well as pastures for cattle.
• The Mediterranean climate is characteristic of most of the Peninsula, the Balearic Islands, Ceuta and Melilla. It has three sub-climates, which all have long dry summers.
– Typical. Winters are cool and summers are hot in most coastal areas. Precipitation is between 300 and 700 mm annually, and it mainly falls in autumn and spring.
– Continentalised. In inland areas, temperatures are very low in winter and high in summer. Precipitation is between 400 and 600 mm annually.
– Semi-arid. Winters are mild and summers are hot in the south-east. Precipitation is less than 300 mm annually. There are long periods of drought.
Mediterranean woodland (holm oak and cork trees) is no longer very extensive. Intensive land use has transformed these landscapes.
• The subtropical climate is characteristic of the Canary Islands. Temperatures are mild all year round. Precipitation is scarce and mainly occurs in winter.
Vegetation includes conifers and laurel trees (laurisilva), and endemic species like the dragon tree and the Canary palm.
• The mountain climate is found in the highest mountain ranges. Winters are long and cold, and summers are short and cool. Precipitation is abundant. Vegetation changes with altitude.
WORK WITH THE MAP
7 Study the map and answer the questions.
a What type of climate predominates in Spain?
b Where is an oceanic climate found?
c What is the climate like in the Canary Islands?
d What is the climate like in the south-east of the peninsula?
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1 Look for extra information about the continents. Then copy and complete the table in your notebook.
2 Make a similar table for Spain.
3 Define the following terms:
• Relief
• Fault
• Tectonic plate
• Subduction zone
4 List the main forms of continental relief (inland and coastal). Describe three of them.
5 Describe the main forms of oceanic relief.
6 Why do mountain ranges form when two continental plates collide?
7 Look at the graph and write the words corresponding to each letter. Then answer the question.
508877_01_p36_grafico_agua
79 %
Sea water97 %
50 %38 %
Atmosphere10 %
20 %Fresh water
3 %
1 %
Surfacewater1 %
Biosphere1 %
TOTAL WATER ON EARTH Total fresh water
Total surface water
• If water covers more than 70% of the Earth’s surface, why do we think of it as scarce?
CONTINENT RELIEF WATER CLIMATE LANDSCAPES
Europe …Longest rivers: Volga, Danube and Ural. Many small lakes.
… …
AsiaThe highest mountain ranges and plateaus in the world.
… … …
Africa … … …Rainforest, Mediterranean and high mountain vegetation.
America … … Hot, temperate and cold. …
Oceania Many islands. … … …
Antarctica … … Polar. …
A
B
C
DE
ACTIVITY ROUND-UP
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8 Analyse the climograph and answer the questions.
a Is precipitation heavy or light? Is it regular or irregular?
b What are temperatures like? Is there a wide or narrow range of temperatures?
c Are there clearly defined seasons throughout the year?
d What type of climate do you think it is?
e In which regions is it found?
9 Look at this photo of a rambla in Murcia. During which period of the year was this photo probably taken? Do you think the landscape looks like this all the year round?
10 Use an atlas to locate the most important mountains and rivers in the following countries:
• United States • Russian Federation
• South Africa • China
Spain depends on rainfall to feed its rivers and refill its aquifers. However, most of the Peninsula has a Mediterranean climate so rainfall is irregular. River flows vary throughout the year and reservoirs are required to ensure a regular supply of water.
On the other hand, most rainfall is lost due to evaporation, inadequate irrigation systems and leaking water pipes. In some places, up to half of the available water is lost in this way.
Hydraulic works are expensive to build and have an adverse effect on natural ecosystems. Water transfers (which move excess water from river basins to areas where there is a shortage) are highly controversial.
11 What measures would you suggest in order to make better use of our water resources?
12 Think about how you use water. How could you make better use of it?
13 Look on the Internet for information about three reservoirs in different Spanish watersheds. Which watersheds are they in? How much water do they hold?
Consumption in numbers
• Water consumption in Spain is among the highest in the world. In 2012, each person consumed 122 litres on average.
• For less than two euros, each Spaniard receives one thousand litres of drinking water at home.
• 80% of the water in our country is used for irrigation. A lot of this water is wasted.
• Spain is the country with the largest number of reservoirs per person. There are around 1,300.
0
50
100
150
200
250
300
350
0
25
50
J F M A M J J A S O N D
In mmIn ºC
Physical geography 1
MANAGING WATER RESOURCES
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TECHNIQUES. Use maps to link geographical features
1 Analyse the maps of Australia.
• Physical map. Identify the main features of physical relief and the course of rivers.
• Climate map. Identify the climates. In which regions is each type of climate located?
• Population map. Which areas are densely populated? Which are sparsely populated?
2 Trace the population map and place it over the other maps.
• Make a list of the main connections between population distribution and relief; and between population and climate.
3 Explain the connections that you have found. Give reasons for your conclusions.
GREAT SANDYDESERTGREAT VICTORIA
DESERT
GreatAustral ian Bight
INDIAN
OCEAN
PACIF IC
OCEAN
0 510
kilometres
Scale
Tropic of Capricorn
509798_01_p35_a_fisico_australia
Tropic of Capricorn
PACIFIC
OCEAN
INDIAN
OCEAN
509798_01_p35_c_densidad_australia
Tropic of Capricorn
PACIFIC
OCEAN
INDIAN
OCEAN
509798_01_p35_b_climas_Australia
Many of the issues that we study in geography cannot be studied in isolation: they are linked to other fields. By comparing different types of maps we can see much more clearly how they are related.
Follow these steps:
1. Analyse each map separately.
2. Look for similarities in the distribution. For example, do the least populated areas match the desert climate? It may help if you trace one map and place it on top of the others.
3. Make a list of the connections that you find.
4. Explain each connection.
Population density (in inhabitants/km2)
Less than 2
25 to 2
50 to 25
Over 50
509798_01_p35_c_leyenda_densidad_australia
Tropicalwet
Tropical dry Oceanic
Mediterraneanand similar
Desert
509798_01_p35_b_leyenda_climas_Australia
700 m400 m0 m
509798_01_p35_a_leyenda_fisico_Australia
2,000 m1,500 m1,000 m
2,500 m
Key competences KNOW HOW TO…
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Odile causes the worst damage to electricity infrastructures in the history of Mexico.
The cyclone, which reached wind speeds of more than 200 km per hour, brought down 520 electric pylons and left 95% of the population of Baja California Sur without electricity.
The cyclone caused the death of at least four people and one person is missing. It also caused damage to urban infrastructures, roads, hotels and houses estimated at more than 900 million dollars.
El País, 22 September 2014 (adapted).
Physical geography 1
PRACTICAL KNOWLEDGE. Tropical cyclones
1 Answer the questions.
• Where are almost all cyclones formed?
• What is the climate like in this area? Why is it favourable to the formation of cyclones?
2 Use the Internet to find out about Typhoon Haiyan. Write a report which includes the following information:
• When it happened.
• The ocean where it originated and the countries that it affected.
• The characteristics of the cyclone.
• The effects it had in human and economic terms.
3 Imagine you lived in an area at risk from cyclones. How would it affect your life? What precautions would you take?
A tropical cyclone is a highly destructive natural phenomenon. It is a huge rotating system of thunderstorms that originates over tropical or subtropical waters. In the northern hemisphere, it circulates in an anticlockwise direction. In the southern hemisphere, it circulates in a clockwise direction.
Two conditions are needed for a tropical cyclone to develop:
• The surface temperature of the oceans must be higher than 26 °C. At this temperature, evaporation and condensation are intense, and they provide the necessary energy to generate strong winds and rain. This explains why most cyclones form at the end of summer, when the water is warm.
• Cyclones form in areas of low atmospheric pressure which attract high winds.
Cyclones move with the rotation of the Earth. As they move, they can change in size, speed and direction, according to atmospheric and oceanic conditions. When a cyclone comes into contact with colder waters or with land, it gradually weakens until it disappears altogether.
THE EFFECTS OF TROPICAL CYCLONES
• Strong winds. When the sustained speed of the wind is less than 60 km per hour, we refer to a tropical depression. If it is between 60 and 119 km per hour, it is a tropical storm. If it is higher than this, it is a hurricane or typhoon.
• Storm surge. This occurs in coastal areas when the sea level rises dangerously and there are huge waves.
• Torrential rain. This can cause flooding and landslides.
• Tornados. These are strong winds forming a violent, rotating column.
All these effects can result in serious personal and material damage, especially in coastal areas.
Satellite picture of Hurricane Katrina reaching the east coast of the United States in August 2005.
The centre of a cyclone is known as its ‘eye’. It usually has a diameter of between 30 and 60 km, but may be as much as 200 km.
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